Welcome To Foundation Physics This work is based on an elementary particle, the Pparticle, and includes amongst other topics, discussions of relativity, origin of background radiation, nature of black holes and the nature of light. http://www.foundationphysics.com/
Extractions: Foundation Physics: Preface: This work is based on an elementary particle, termed the 'P-Particle', which is first postulated to be the fundamental constituent of all matter present in the universe. The particle is defined by several axioms and can be regarded as being the quantum of matter. Just as energy is quantised, and energy and mass are interchangeable, then on this basis the idea of mass being quantised is first assumed and subsequently verified. It is subsequently shown that this particle can be identified with the neutrino. From this model, a large number of results are derived which potentially shed a new light on aspects of physics ranging from classical Newtonian mechanics and relativity to quantum mechanics and particle physics. Amongst the topics included are:
Extractions: Even if the phenomena described in an introductory undergraduate plasma physics course are in principle simple, teaching the subject quickly leads to the use of rather heavy mathematics. Indeed, plasma physics combines electromagnetics, mechanics and fluid dynamics, which are generally considered difficult subjects. Students are nowadays highly computer literate, at the expense however of old fashioned skills in analytical theory. Rather than reducing the scope of the material presented, these modules aim at using their new strengths; in fact, this makes it possible to take the physical descriptions to a higher degree of realism while also familiarizing the students with the limitations intrinsic to numerical methods. Purpose.
EPICS - Experimental Physics And Industrial Control System EPICS is a set of software tools and applications used worldwide to develop distributed control systems for scientific instruments such as a particle accelerators, telescopes and other large scientific experiments. http://www.aps.anl.gov/epics
Extractions: for printing EPICS is a set of software tools, libraries and applications developed collaboratively and used worldwide to create distributed soft real-time control systems for scientific instruments such as a particle accelerators, telescopes and other large scientific experiments. About : What is EPICS anyway? IOC Software : Stuff that runs in an IOC : Stable releases, receive bugfixes only : Old versions, now frozen but possibly still in use : Ancient history Tornado : Help on configuring and patching vxWorks for use with EPICS RTEMS : RTEMS Tutorial Statistics : Development statistics from CVS H/W by Bus,
RMKI Homepage A division of the Hungarian Academy of Sciences. Information on organisation, activities, publications, prizes and conferences. http://www.rmki.kfki.hu
High Performance Computing UCLA Plasma Simulation Group Links to papers on ObjectOriented Programming in Fortran 90, Optimization techniques for RISC processors, Parallel particle-in-Cell Codes, Parallel Computing Tutorial, and Modernization of Fortran Legacy Codes. http://exodus.physics.ucla.edu/high performance computing/high.performance.comp.
Extractions: On this Page: Web pages Publications The Purpose of High Performance Computing is to develop strategies, algorithms, and techniques to enable effective use of high performance computers for the solution of large scale scientific problems. Appleseed: Macintosh Cluster Object-Oriented Programming in Fortran 90 Optimization techniques for RISC processors ... Modernization of Fortran Legacy Codes V. K. Decyk, C. D. Norton, and B. K. Szymanski, "Fortran 90 'Gotchas' (Parts 1-3)," ACM Fortran Forum, vol. 18, no. 2, p. 22, 1999, vol. 18, no. 3, p. 26, 1999, and vol. 19, no. 1, p. 10, 1999. J. Qiang, R. Ryne, S. Habib, and V. Decyk, "An Object-Oriented Parallel Particle-in-Cell code for Beam Dynamics Simulation in Linear Accelerators," Proc. Supercomputing 99, Portland, OR, Nov. 1999, CD-ROM. V. K. Decyk, D. E. Dauger, and P. R. Kokelaar, "Plasma Physics Calculations on a Parallel Macintosh Cluster," Physica Scripta T84, 85 (2000). V. K. Decyk, C. D. Norton, and B. K. Szymanski, "How to support inheritance and run-time polymorphism in Fortran 90", Computer Physics Communications V. K. Decyk, C. D. Norton, and B. K. Szymanski, "How to Express C++ Concepts in Fortran 90,"
Laser And Particle Beams An international journal which deals with the physics of intense laser and particle beams, the interaction of these beams with matter, and their applications. You can subscribe to the online journal or purchase specific articles. http://titles.cambridge.org/journals/journal_catalogue.asp?mnemonic=lpb
North Dakota State University - Fargo, N.D. <2004> physics At North Dakota State University. Theoretical Gravitation and Torsion, High Energy particle Theory, Ionospheric physics, Nonlinear Studies, Computational physics. http://www.phys.ndsu.nodak.edu
Cleanroom Equipment Applied Physics USA Offers metrology and process tools to semiconductor manufacturing, and aerosol particle sampling instruments to the pollution industry. http://www.appliedphysicsusa.com
Extractions: Cleanroom Foggers, MOUDI Cascade Impactor, Laser Particle Counters, 200mm Wafer Flat Aligners, Wafer Notch Aligners, 300mm Wafer Transfer products, Plade Wet Bench, PSL Wafer Calibration Standards, NIST PSL Spheres, Scanning Mobility Particle Sizer, PSL Wafer Standards and PSL Deposition System. Used equipment and demo systems are also offered. Cleanroom Fogger The Model 2001 and 2010 Cleanroom Foggers are designed to visualize airflow turbulence with a high volume, ultrapure fog, while not adding particle contamination to, nor disturbing, the airflow to be visualized. We do not offer ultrasonic foggers or a CO2 water fogger, as these products do not offer the volume or purity needed in semiconductor and pharmacuetical cleanrooms.
QuarkDance.org Lawrence Berkeley National Laboratory's particle Data Group welcomes you to see its Quark Dance website which is a gateway to many exciting physics websites. http://pdg.lbl.gov/quarkdance/
Laser And Particle Beams Laser and particle Beams is an international journal which deals with the physics of intense laser and particle beams, the interaction of these beams with matter, and their applications. http://titles.cambridge.org/journals/journal_catalogue.asp?historylinks=SUBJ&
WAVE PARTICLE DUALITY A series of pages on the natures of particles and waves and their similarities in the field of modern physics. These pages are intended to aid the reader in the first year Quantum physics http://www.qmw.ac.uk/~zgap118/
Extractions: or W elcome to a series of pages on the natures of particles and waves and their similarities and differences in the field of modern physics. These pages are intended to aid the reader in the first year, second semester course Quantum Physics. You are supposed to follow the pages in rotation starting with chapter 1, completing the questions as you go. If you need to a break remember where you are either by adding a bookmark (goto menu Bookmarks, then Add Bookmark) or by remembering where you were and finding your place using the index option below. Your reply to questions is not being monitored, so don't feel under any pressure to get the correct answer the first time, but the system is here to help you learn so please use it. I would be grateful for any comments you have via e-mail. tom@dcs.qmw.ac.uk CONTENTS 1. Particles and their behaviour 2. Waves and their behaviour 3. Particle-like wave behaviour 4. Wave-like particle behaviour ... 7. Index Hits since November 5th 1995
Institute For Research In Electronics And Applied Physics Research on plasma stability and transport; chaotic dynamics, charged particle beams, high power microwaves, ion beams, ion beam lithography, ultrahigh power, short pulse lasers, multifrequency microwave sintering of ceramics, and the physics and chemistry of lightning. http://www.ipr.umd.edu/
Winter School: 2nd Bulletin The main goal of the school is to review major experimental efforts in the particle astrophysics field, their underlying theoretical motivation and implications. http://www.weizmann.ac.il/physics/heap/WinterSchool
The Hydra Consortium Adaptive particleparticle, particle-mesh plus smoothed particle hydrodynamics code. http://coho.physics.mcmaster.ca/hydra/
Index Of /discoverynews New physics theory on density of space, matter and space energy, elementary particle, mass, magnetism, nonexistence of charge, speed of light, time and anti-gravity. http://www.geocities.com/discoverynews
National Nuclear Data Center The National Nuclear Data Center (NNDC) is funded by the U.S. Department of Energy to provide information services in the fields of low and medium energy nuclear physics to users in the United States and Canada. In particular, the Center can provide information on neutron, chargedparticle, and photonuclear reactions, nuclear structure, and decay data. http://www.nndc.bnl.gov/
Extractions: Announcements: This is our new web page Nuclear Data Portal Older page is here Job Opportunity Note : This site has been designed to work with recent versions of Internet Explorer or Mozilla Site Index Search the NNDC: CapGam Thermal Neutron Capture Gamma-rays CINDA Computer Index of Neutron Data CSEWG Cross Section Evaluation Working Group CSISRS alias EXFOR Nuclear reaction experimental data Empire Nuclear reaction model code ENDF Evaluated Nuclear (reaction) Data File ENSDF Evaluated Nuclear Structure Data File For NMMSS and DoE NMIRDC Standards for decay data IRDF International Reactor Dosimetry File MIRD Medical Internal Radiation Dose NSR Nuclear Science References Nuclear Data Sheets Nuclear structure and decay data journal Nuclear Wallet Cards Ground and isomeric states properties NuDat Nuclear structure and decay data RIPL Reference Input Parameter Library USNDP U.S. Nuclear Data Program
The Particle Detector BriefBook A condensed handbook covering subjects around particle detectors, the underlying physics and the analysis of their data. Intended as introduction for newcomers and reference for physicists working in the field. http://www.cern.ch/RD11/rkb/titleD.html
Extractions: This is a condensed handbook, or an extended glossary, written in encyclopedic format, covering subjects around particle detectors, the underlying physics, and the analysis of their data. It intends to be both introduction for newcomers and reference for physicists working in the field. This BriefBook has been prepared by (your browser should have graphics capability). You will access version 14, which is now also available as a book (order directly from Springer or from your preferred bookstore). The Internet version will be updated occasionally, and is not necessarily identical to the printed version. In all cases, we appreciate your feedback: please send comments, error corrections, or your suggestions for new contributions, to R.K.Bock. Part of the information has been derived, with permission, from a booklet FORMULAE AND METHODS IN EXPERIMENTAL DATA EVALUATION The Data Analysis BriefBook Some comments on this Internet version of The Particle Detector BriefBook The html version has been generated automatically, using Latex2html version 3.1. Minor adjustments by hand were necessary; if in some places the html presentation is not optimal, we ask for your understanding.
Warren Siegel @ CNYITP, SUNY a Professor at C.N. Yang Institute for Theoretical physics, State University of New York, Stony Brook, Long Island, he's not content just to study the relationships between string theory and particle theory, but also to write goofy essays, and maintain this Web site. http://insti.physics.sunysb.edu/~siegel/plan.html
MainPage Postdoctoral Researcher at Brandeis University. Research interests are computational fluid dynamics, particlesolid and plasma interaction physics, plasma physics, biophysics of membrane proteins. http://people.brandeis.edu/~gennady/
Boston University Physics Department Information about the undergraduate and graduate programs, current research projects, and professors. The department has programs in experimental and theoretical particle and condensed matter physics. http://physics.bu.edu/